John M. Clancy scite author profile

The purpose of this work is to review the published strategies for the production of prodrugs of amines. The review is divided in two main groups of approaches: those that rely on enzymatic activation and those that take advantage of physiological chemical conditions for release of the drugs. A compilation of the most important approaches is presented in the form of a table, where the main advantages and disadvantages of each strategy are also referred.

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Isosorbide-Based Aspirin Prodrugs: Integration of Nitric Oxide Releasing Groups

Jones

Inkielewicz

Medina

et al. 2009

J. Med. Chem.

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Aspirin prodrugs and related nitric oxide releasing compounds hold significant therapeutic promise, but they are hard to design because aspirin esterification renders its acetate group very susceptible to plasma esterase mediated hydrolysis. Isosorbide-2-aspirinate-5-salicylate is a true aspirin prodrug in human blood because it can be effectively hydrolyzed to aspirin upon interaction with plasma BuChE. We show that the identity of the remote 5-ester dictates whether aspirin is among the products of plasma-mediated hydrolysis. By observing the requirements for aspirin release from an initial panel of isosorbide-based esters, we were able to introduce nitroxymethyl groups at the 5-position while maintaining ability to release aspirin. Several of these compounds are potent inhibitors of platelet aggregation. The design of these compounds will allow better exploration of cross-talk between COX inhibition and nitric oxide release and potentially lead to the development of selective COX-1 acetylating drugs without gastric toxicity.

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Discovery of a “True” Aspirin Prodrug

et al. 2008

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Aspirin prodrugs formed by derivatization at the benzoic acid group are very difficult to obtain because the promoiety accelerates the rate of hydrolysis by plasma esterases at the neighboring acetyl group, generating salicylic acid derivatives. By tracing the hydrolysis pattern of the aspirin prodrug isosorbide-2,5-diaspirinate (ISDA) in human plasma solution, we were able to identify a metabolite, isosorbide-2-aspirinate-5-salicylate, that undergoes almost complete conversion to aspirin by human plasma butyrylcholinesterase, making it the most successful aspirin prodrug discovered to date.

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β-Aminoketones as prodrugs with pH-controlled activation

Simplı́cio

Clancy

Gilmer

2007

International Journal of Pharmaceutics

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Single oral dose study of two isosorbide-based aspirin prodrugs in the dog

Gilmer

Murphy

Shannon

et al. 2003

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The objective of this study was to compare two aspirin prodrugs, isosorbide diaspirinate (ISDA) and a nitroaspirin (ISMNA), with aspirin in terms of effects on dog platelet function after administration of a single oral dose. Groups of six dogs were administered ISDA (2 mg kg -1 ), ISMNA (4 mg kg -1 ) or aspirin (2 mg kg -1 ). Blood was sampled at 1, 2, 4, 8, 12 and 24 h postdosing and evaluated for capacity to generate post-clotting thromboxane (TX)B 2 . The aggregation response to arachidonic acid (AA) (100 M), ADP (30 M) or collagen (10 g mL -1 ) was estimated at each time-point using the whole blood impedance method. Plasma ISMN following oral administration of ISMNA was also measured and compared with plasma ISMN following administration of a physical mixture of ISMN and aspirin. ISDA administration (2 mg kg -1 ) was associated with a significant reduction (P < 0.05) in serum TXB 2 at 12 and 24 h (>90%) post-dosing and persistent inhibition of AAinduced platelet aggregation. ISDA administration caused a more marked depression of post-clotting TXB 2 levels than aspirin in this study, although its ability to inhibit platelet aggregation was less consistent than that of aspirin. The nitroaspirin ISMNA was least effective at inhibiting platelet aggregation response or TXB 2 production. The ISMN AUC 0-24 h for the ISMNA-treated dogs was 77% of that for the physical mix-treated dogs and the t max was delayed. This study indicates that the two aspirin esters cause aspirin-like effects on platelet function, probably through aspirin release, when administered orally to dogs.

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John M. Clancy

Prodrugs for Amines

Isosorbide-Based Aspirin Prodrugs: Integration of Nitric Oxide Releasing Groups

Discovery of a “True” Aspirin Prodrug

β-Aminoketones as prodrugs with pH-controlled activation

Single oral dose study of two isosorbide-based aspirin prodrugs in the dog

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